InvokeAI/ldm/invoke/conditioning.py
Kevin Turner 853c6af623 refactor(cross_attention_control): remove outer CrossAttentionControl class
Python has modules. We don't need to use a class to provide a namespace.
2022-11-12 11:01:10 -08:00

196 lines
10 KiB
Python

'''
This module handles the generation of the conditioning tensors.
Useful function exports:
get_uc_and_c_and_ec() get the conditioned and unconditioned latent, and edited conditioning if we're doing cross-attention control
'''
import re
from difflib import SequenceMatcher
from typing import Union
import torch
from .prompt_parser import PromptParser, Blend, FlattenedPrompt, \
CrossAttentionControlledFragment, CrossAttentionControlSubstitute, Fragment, log_tokenization
from ..models.diffusion import cross_attention_control
from ..models.diffusion.shared_invokeai_diffusion import InvokeAIDiffuserComponent
from ..modules.encoders.modules import WeightedFrozenCLIPEmbedder
def get_uc_and_c_and_ec(prompt_string_uncleaned, model, log_tokens=False, skip_normalize=False):
# Extract Unconditioned Words From Prompt
unconditioned_words = ''
unconditional_regex = r'\[(.*?)\]'
unconditionals = re.findall(unconditional_regex, prompt_string_uncleaned)
if len(unconditionals) > 0:
unconditioned_words = ' '.join(unconditionals)
# Remove Unconditioned Words From Prompt
unconditional_regex_compile = re.compile(unconditional_regex)
clean_prompt = unconditional_regex_compile.sub(' ', prompt_string_uncleaned)
prompt_string_cleaned = re.sub(' +', ' ', clean_prompt)
else:
prompt_string_cleaned = prompt_string_uncleaned
pp = PromptParser()
parsed_prompt: Union[FlattenedPrompt, Blend] = None
legacy_blend: Blend = pp.parse_legacy_blend(prompt_string_cleaned)
if legacy_blend is not None:
parsed_prompt = legacy_blend
else:
# we don't support conjunctions for now
parsed_prompt = pp.parse_conjunction(prompt_string_cleaned).prompts[0]
parsed_negative_prompt: FlattenedPrompt = pp.parse_conjunction(unconditioned_words).prompts[0]
print(f">> Parsed prompt to {parsed_prompt}")
conditioning = None
cac_args:cross_attention_control.Arguments = None
if type(parsed_prompt) is Blend:
blend: Blend = parsed_prompt
embeddings_to_blend = None
for i,flattened_prompt in enumerate(blend.prompts):
this_embedding, _ = build_embeddings_and_tokens_for_flattened_prompt(model,
flattened_prompt,
log_tokens=log_tokens,
log_display_label=f"(blend part {i+1}, weight={blend.weights[i]})" )
embeddings_to_blend = this_embedding if embeddings_to_blend is None else torch.cat(
(embeddings_to_blend, this_embedding))
conditioning = WeightedFrozenCLIPEmbedder.apply_embedding_weights(embeddings_to_blend.unsqueeze(0),
blend.weights,
normalize=blend.normalize_weights)
else:
flattened_prompt: FlattenedPrompt = parsed_prompt
wants_cross_attention_control = type(flattened_prompt) is not Blend \
and any([issubclass(type(x), CrossAttentionControlledFragment) for x in flattened_prompt.children])
if wants_cross_attention_control:
original_prompt = FlattenedPrompt()
edited_prompt = FlattenedPrompt()
# for name, a0, a1, b0, b1 in edit_opcodes: only name == 'equal' is currently parsed
original_token_count = 0
edited_token_count = 0
edit_opcodes = []
edit_options = []
for fragment in flattened_prompt.children:
if type(fragment) is CrossAttentionControlSubstitute:
original_prompt.append(fragment.original)
edited_prompt.append(fragment.edited)
to_replace_token_count = get_tokens_length(model, fragment.original)
replacement_token_count = get_tokens_length(model, fragment.edited)
edit_opcodes.append(('replace',
original_token_count, original_token_count + to_replace_token_count,
edited_token_count, edited_token_count + replacement_token_count
))
original_token_count += to_replace_token_count
edited_token_count += replacement_token_count
edit_options.append(fragment.options)
#elif type(fragment) is CrossAttentionControlAppend:
# edited_prompt.append(fragment.fragment)
else:
# regular fragment
original_prompt.append(fragment)
edited_prompt.append(fragment)
count = get_tokens_length(model, [fragment])
edit_opcodes.append(('equal', original_token_count, original_token_count+count, edited_token_count, edited_token_count+count))
edit_options.append(None)
original_token_count += count
edited_token_count += count
original_embeddings, original_tokens = build_embeddings_and_tokens_for_flattened_prompt(model,
original_prompt,
log_tokens=log_tokens,
log_display_label="(.swap originals)")
# naïvely building a single edited_embeddings like this disregards the effects of changing the absolute location of
# subsequent tokens when there is >1 edit and earlier edits change the total token count.
# eg "a cat.swap(smiling dog, s_start=0.5) eating a hotdog.swap(pizza)" - when the 'pizza' edit is active but the
# 'cat' edit is not, the 'pizza' feature vector will nevertheless be affected by the introduction of the extra
# token 'smiling' in the inactive 'cat' edit.
# todo: build multiple edited_embeddings, one for each edit, and pass just the edited fragments through to the CrossAttentionControl functions
edited_embeddings, edited_tokens = build_embeddings_and_tokens_for_flattened_prompt(model,
edited_prompt,
log_tokens=log_tokens,
log_display_label="(.swap replacements)")
conditioning = original_embeddings
edited_conditioning = edited_embeddings
#print('>> got edit_opcodes', edit_opcodes, 'options', edit_options)
cac_args = cross_attention_control.Arguments(
edited_conditioning = edited_conditioning,
edit_opcodes = edit_opcodes,
edit_options = edit_options
)
else:
conditioning, _ = build_embeddings_and_tokens_for_flattened_prompt(model,
flattened_prompt,
log_tokens=log_tokens,
log_display_label="(prompt)")
unconditioning, _ = build_embeddings_and_tokens_for_flattened_prompt(model,
parsed_negative_prompt,
log_tokens=log_tokens,
log_display_label="(unconditioning)")
if isinstance(conditioning, dict):
# hybrid conditioning is in play
unconditioning, conditioning = flatten_hybrid_conditioning(unconditioning, conditioning)
if cac_args is not None:
print(">> Hybrid conditioning cannot currently be combined with cross attention control. Cross attention control will be ignored.")
cac_args = None
return (
unconditioning, conditioning, InvokeAIDiffuserComponent.ExtraConditioningInfo(
cross_attention_control_args=cac_args
)
)
def build_token_edit_opcodes(original_tokens, edited_tokens):
original_tokens = original_tokens.cpu().numpy()[0]
edited_tokens = edited_tokens.cpu().numpy()[0]
return SequenceMatcher(None, original_tokens, edited_tokens).get_opcodes()
def build_embeddings_and_tokens_for_flattened_prompt(model, flattened_prompt: FlattenedPrompt, log_tokens: bool=False, log_display_label: str=None):
if type(flattened_prompt) is not FlattenedPrompt:
raise Exception(f"embeddings can only be made from FlattenedPrompts, got {type(flattened_prompt)} instead")
fragments = [x.text for x in flattened_prompt.children]
weights = [x.weight for x in flattened_prompt.children]
embeddings, tokens = model.get_learned_conditioning([fragments], return_tokens=True, fragment_weights=[weights])
if log_tokens:
text = " ".join(fragments)
log_tokenization(text, model, display_label=log_display_label)
return embeddings, tokens
def get_tokens_length(model, fragments: list[Fragment]):
fragment_texts = [x.text for x in fragments]
tokens = model.cond_stage_model.get_tokens(fragment_texts, include_start_and_end_markers=False)
return sum([len(x) for x in tokens])
def flatten_hybrid_conditioning(uncond, cond):
'''
This handles the choice between a conditional conditioning
that is a tensor (used by cross attention) vs one that has additional
dimensions as well, as used by 'hybrid'
'''
assert isinstance(uncond, dict)
assert isinstance(cond, dict)
cond_flattened = dict()
for k in cond:
if isinstance(cond[k], list):
cond_flattened[k] = [
torch.cat([uncond[k][i], cond[k][i]])
for i in range(len(cond[k]))
]
else:
cond_flattened[k] = torch.cat([uncond[k], cond[k]])
return uncond, cond_flattened